Directional coupling device and methods for use therewith

What is claimed is: 1. A coupling device comprising: a first antenna that radiates a first radio frequency (RF) signal conveying data; and a second antenna that radiates a second RF signal conveying the data; wherein the first antenna and the second antenna are configured such that the first RF signal and second RF signal form a combined RF signal that is guided by an outer surface of a transmission medium to propagate as a guided electromagnetic wave in substantially a single longitudinal direction along the transmission medium and wherein the first RF signal and the second RF signal add constructively in the single longitudinal direction and cancel at least in part in a direction opposite to the single longitudinal direction. 2. The coupling device of claim 1 , wherein the transmission medium comprises a wire. 3. The coupling device of claim 1 , wherein the guided electromagnetic wave propagates via at least one non-fundamental guided wave mode. 4. The coupling device of claim 1 , wherein the first RF signal and the second RF signal have a common wavelength and a quadrature phase difference and wherein the first antenna and second antenna are spaced a distance apart that corresponds to substantially one quarter of the common wavelength and wherein the first RF signal and the second RF signal are substantially in-phase. 5. The coupling device of claim 1 , wherein the first RF signal and the second RF signal have a common wavelength λ and a phase difference Δφ and wherein the first antenna and second antenna are spaced a distance d apart and wherein d+λΔφ/2π=λ/2. 6. The coupling device of claim 1 , wherein the first antenna and the second antenna are monopole antennas. 7. The coupling device of claim 6 , wherein the first RF signal and the second RF signal have a common wavelength and wherein the monopole antennas have an effective length of substantially one quarter of the common wavelength. 8. The coupling device of claim 1 , wherein the combined RF signal includes a local maximum substantially aligned with the single longitudinal direction. 9. The coupling device of claim 1 , wherein the combined RF signal includes a local minimum aligned substantially opposite to the single longitudinal direction. 10. A coupling device comprising: a first antenna that radiates a first radio frequency (RF) signal conveying data; and a second antenna that radiates a second RF signal conveying the data; wherein the first RF signal and second RF signal form a combined RF signal that is bound by an outer surface of a transmission medium to propagate as a guided electromagnetic wave substantially in a first selected one of a plurality of longitudinal directions along the transmission medium, wherein the first antenna and second antenna are spaced a distance apart and wherein the first RF signal and the second RF signal have a common wavelength and a first phase difference. 11. The coupling device of claim 10 , wherein the transmission medium comprises a wire. 12. The coupling device of claim 10 wherein, when the first RF signal and the second RF signal are adjusted to have a second phase difference, the first antenna and second antenna form the guided electromagnetic wave substantially in a second selected one of the plurality of longitudinal directions along the transmission medium that is opposite to the first selected one of the plurality of longitudinal directions along the transmission medium. 13. The coupling device of claim 10 , wherein the first antenna and the second antenna are monopole antennas. 14. The coupling device of claim 13 , wherein the monopole antennas have an effective length of substantially one quarter of the common wavelength. 15. The coupling device of claim 10 , wherein the combined RF signal includes a local maximum substantially aligned with the first selected one of the plurality of longitudinal directions. 16. The coupling device of claim 10 , wherein the combined RF signal includes a local minimum aligned substantially opposite to the first selected one of the plurality of longitudinal directions. 17. A method comprising: generating a first radio frequency (RF) signal; generating second RF signal; and radiating, via an antenna array, the first RF signal and the second RF signal as a combined RF signal, wherein the combined RF signal is bound by an outer surface of a transmission medium to propagate as a guided electromagnetic wave substantially in a single longitudinal direction along the transmission medium and wherein the first RF signal and the second RF signal add constructively in the single longitudinal direction and cancel at least in part in a direction opposite to the single longitudinal direction. 18. The method of claim 17 , wherein the transmission medium comprises a wire.